David Coufal (Institute of Computer Science AS CR), Jan Klaschka (Institute of Computer Science AS CR), David Štefka (Institute of Computer Science AS CR)

The aim of research presented here is a qualitative analysis of electroencephalographic signals (EEG signals), which reflect the electrical activity a car driver’s brain, in order to indicate his/her level of vigilance. This level is classified into three classes of mentation, wakefulness and somnolence (micro-sleep). The research is conducted in cooperation with the Joint Laboratory of System Reliability of the Czech Technical University in Prague. In the laboratory there is installed a fully equipped car surrounded by 270° projection screens. Actuators of the car are interconnected with a computer that controls various types of projections.

EEG data
are collected during experimental sessions involving volunteer and professional
car drivers. The drivers undergo different driving scenarios. Scanning cap
with 19 electrodes is fixed on their head and EEG signals are scanned and
recorded. Signals are classified according to objective (response time on an acoustic
signal) and subjective (video analysis of facial grimacing) criterions. Collected data
are then processed by mathematical methods to built up classification models to
monitor driver’s alertness and helping him to drive safely.

In our
team, three methods of EEG data analysis are investigated. All approaches work with the data transformed from time to frequency domain, i.e. with EEG
spectrograms.

We have a strong
interest in the application of classification trees and random forests methodologies.
Promising results were obtained for mixed models where classifiers established
for individual persons are combined with the classifiers established for the
whole population of tested persons. The combination of classifiers is based on
the application of dynamic confidence measures. The other approach employs
explorative data-mining methods for indication of conditional dependencies
between different levels of vigilance and characteristics of EEG data
spectrograms. Found dependencies are used as the basis for building radial
fuzzy inference models to process the inherent vagueness accommodated in EEG data.